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The Design of Curriculum Website OU Qizhong1,a, HUANG Xingyun2,b 1Computer & Information Engineering College,Guangxi Teachers Education University,Nanning,Guangxi,China 2Teaching Affairs Office,Guangxi Mech. & Elec.Industy School,Nanning,Guangxi,China a7794373@qq.com, b20910676@qq.com Author Biographies OU Qizhong(1970-),Male,Senior Engineer HUANG Xingyun(1981-), female, Master of Engineering(ME).
Communication module: includes an online Q & A, E-mail, education blog, learning forum and other interactive modes.
Website should be not only open, but also secure, and adopt the advanced security technology or security measures to ensure network security, which has reached a consensus in network application.

Experimental Research on the Abrasive Belt Grinding Blades Material 1Cr13 Stainless Steel Chunqiang Yang1,2, a, Yun Huang1,2, b , Zhi Huang1,2, c and Xiaozhen Li3, d 1College of Mechanical Engineering, Chongqing University, Chongqing, 400030, China 2Chongqing Engineering Research Center for Material Surface Precision Machining and Whole Set Equipments, Chongqing, 400021, China 3College of Economic Management, Henan Agricultural University, Zhengzhou, Henan, 450002, China aycq_xq@163.com, byunhuang@samhida.com, chz@samhida.com, dzheng8522@163.com Keywords: Belt grinding, Surface roughness, Abrasive belt wear, Stainless steel Abstract.
Huang: Materials Science Forum Vol. 626-627(2009), pp.617-622
Mamoru: Journal of Japan Society of Lubrication Engineers Vol. 6 (1985), pp.157-162
Bernd: International Journal of Advanced Manufacturing Technology Vol. 35 (2008), pp.1090-1099 [6] S.

Use of Waste from Construction and Demolition in the Manufacture of Soil-Cement Bricks: A Sustainable Alternative Lívia Racquel de Macêdo Reis1,3,a, Silvio Romero Oliveira do Nascimento Filho2,b, Ian Gustavo Rodrigues Veloso Reis2,c, Pablo de Abreu Vieira2,d, Luzana Leite Brasileiro2,3,e, José Milton Elias de Matos1,3, f 1Federal University of Piaui – UFPI /CCN –- Laboratory of Bioelectrochemistry - Campus University Minister Petrônio Portela, Ininga, Teresina – PI, 64049-550, Brazil, phone (+550XX86) 3215 5840. 2Federal University of Piaui – UFPI /CT –- Campus University Minister Petrônio Portela, Ininga, Teresina – PI, 64049-550, Brazil, phone (+550XX86) 3215 5699. 3Federal University of Piaui – UFPI/PPGCM –- Interdisciplinary Laboratory for Advanced Materials – LIMAv – Campus University Minister Petrônio Portela, Ininga, Teresina – PI, 64049-550, Brazil, phone (550XX86) 3221 5710.
Introduction The use of construction and demolition waste (CDW) stands out as an alternative to sustainability, seeking to value the materials discarded in the works and engineering materials, attributing them the status of noble material.
In relation to the valorization of the materials discarded in construction and engineering materials, the soil-cement brick produces a smaller quantity of residues, and the residues of other constructions can also be used for its manufacture.
Acknowledgment To the Construction Materials Laboratory of UFPI Technology Center, the Mechanical Testing and Metallography Laboratory of UFPI Technology Center, the Camilo Filho Institute Soil Laboratory, and the 2nd Construction Engineering Battalion.
Furtini: Materials Science Forum Vol. 869 (2016), p. 112

Comparative Assessment of Strength Models for AA6063 Alloy Aluru Praveen Sekhar1, a, Supriya Nandy2, b, Kalyan Kumar Ray2, c and Debdulal Das1, d 1Department of Metallurgy and Materials Engineering, Indian Institute of Engineering Science and Technology, Shibpur, Howrah – 711103, India 2Department of Metallurgical and Materials Engineering, Indian Institute of Technology, Kharagpur, West Medinipur – 721302, India apraveensekhar429@gmail.com, cnandysupriya@gmail.com, bkalyankumarry@gmail.com ddebdulal_das@metal.iiests.ac.in, Keywords: Aluminum alloy, age hardening, modeling, precipitation hardening.
Acknowledgment The assistance received from the Centre of Excellence on Microstructurally Designed Advanced Materials Development, TEQIP-II, IIEST Shibpur to carry out a part of this work is gratefully acknowledged.
Forum Vol. 28 (2004), p. 118

Introduction Southwest Technique and Engineering Institute (STEI) is a professional research organization in materials and technology.
It maintains many advanced research equipments, such as MTS, GLEEBLE, laser holographic photoelastic instrument, X ray diffractometer, atomic absorption flame emission spectrophotometer etc.
Microplasma Oxidation on Magnesiuma Alloy, MaterialsScience and Technology, Vol.5 ,No.2�1997� p.89-92 [3]Tim.Stevens, Synergistic Fluoropolymer Coatings, Material Engineering, Vol.19, No.9,�1991�p.22-23
Hai, Fine Microstructure Production Through Sandglass extrusion, Materials Science Forum, Vol.447/448, (2004) p.429-434 [6] T Bremer, et al.
Sheffield, USA, (1996),p.226-231 [7] Hao Nanhai, Lu Yan, Numerical Simulation of Forming Process of the Radial Rib in the Forging of Upper Case, Journal of Plasticity Engineering, Vol.4, No.2,(1997) p.9-13

Influence of Exchanged Surfactant on the Structure and Adsorption Properties of Brazilian Green Mud Clay Mariaugusta Ferreira Mota1a, Fabricio Machado2b, Meiry Gláucia Freire Rodrigues1c 1Federal University of Campina Grande, Academic Unit of Chemical Engineering, Laboratório de Desenvolvimento de Novos Materiais Aprígio Veloso 882, Bloco CM, Campina Grande - PB, CEP: 58429-970, Phone: 55 83 2101-14885, Brazil 2Instituto de Química - Universidade de Brasília Campus Universitário Darcy Ribeiro - CP 04478 Brasília - 70910-900 DF - Brasil amariaugusta.f@gmail.com, bfmachado@unb.br, cmeiry@deq.ufcg.edu.br Keywords: Green mud clays; organophilic clay; surfactant, Praepagen, Dodigen Abstract.
Burns: Journal of Geotechnical and Geoenvironmental Engineering Vol. 127 (2001), p. 363
Boyd: Advanced Agronomy Vol. 59 (1997), p. 25
Rodrigues: Materials Science Forum Vol. 660 (2010), p. 1031
Petroleum Science and Engineering Vol. 46 (2005), p. 209

Investigating Water Absorption Characteristics of Sisal and Glass Fiber Reinforced Composites: Effects of Stacking Sequence on Moisture Mridula Barman1,a, Vishal Sharma1,b, Almondee Marbaniang1,c, Sutanu Samanta1,d, Narendra Kumar Rana1,e and Nabam Teyi1,f* 1Department of Mechanical Engineering, North Eastern Regional Institute of Science and Technology, Arunachal Pradesh, India amridula.barman11@gmail.com, bvishalsharma1998123@gmail.com, calmon9dee7marbaniang@gmail.com, dssa@nerist.ac.in, enkr@nerist.ac.in,f*nbt@nerist.ac.in Keywords: Natural fiber composites, Sisal fiber, Glass fiber, Water absorption, Stacking sequence, Composite durability.
Engineering Research Express, 6(4), 045507
In Materials Science Forum (Vol. 1060, pp. 37-42).
Key Engineering Materials, 847, 9-14
New Materials, Processing and Manufacturability: Fabrication and Processing of Advanced Materials, 351

Evolution of White Layer during Wire-Cutting and Comparison of Several Methods to Improve Surface Integrity for Fineblanking Tools Xianglin Zhang1,a*, Hanlin Peng1,b, Liyun Zhang1, Chuanliang Cao2,c, Jingwen Yi1, Yu Zhou1, Yu Zhang1 1State Key Laboratory of Materials Processing and Die & Mould Technology, College of Materials Science and Engineering, Huazhong University of Science and Technology, Wuhan 430074, China 2 College of Mechanical and Electrical Engineering, Nanchang University, Nanchang, China ahust_zxl@mail.hust.edu.cn, bhenryhlpeng@163.com, ccaoliang1102736@126.com Keywords: Wire electrical discharge machining, Manual polishing, Towed polishing, Electrolytic polishing, White layer, High speed steel.
Thus, advanced manufacturing process has been increasingly implemented, such as wire-cut electrical discharge machining (WEDM), ultra-precision grinding and lapping [4].
The high hardness, strength and toughness characteristics of current engineering materials prevent the application of traditional machining techniques to the machining of complex and minimize the structures.
Spišáková, The influence of punch-die clearance on blanked edge quality in fine blanking of automotive sheets, Materials Science Forum 818 (2015) 264-267
Hocheng, Improvement of fatigue life of electrical discharge machined AISI D2 tool steel by TiN coating, Materials Science and Engineering: A 318 (2001) 155-162

Microstructure Evolution of Sn-3.5Ag-1.0Cu-0.5Ni/Cu System Lead Free Solder Under Long Term Thermal Aging NOOR ASIKIN AB GHANI1,a, IZIANA YAHYA1,b, MOHD ARIF ANUAR MOHD SALLEH2,c, SAIDATULAKMAR SHAMSUDDIN1,d, ZAINAL ARIFIN AHMAD3,e and RAMANI MAYAPPAN1,f* 1 Faculty Of Applied Science, Universiti Teknologi MARA Perlis,02600 Perlis Malaysia 2 School Of Materials Engineering,Universiti Malaysia Perlis (UniMAP), 02600 Perlis Malaysia 3 School Of Materials And Mineral Resources Engineering, Universiti Sains Malaysia,Penang Malaysia Email: asikinabghani@gmail.coma, izianayahya@gmail.comb, arifanuar@unimap.edu.myc, saida@perlis.uitm.edu.myd, zainal@eng.usm.mye, ramani@perlis.uitm.edu.myf*.
The Cu atoms has dissolve from Cu substrate and consumed in advanced to change IMC solder into IMC in the case of Ni added [7].
Kao: Material Science and Engineering.
Shohji: Key Engineering Materials.
Material Science Forum Vol. 439 (2003), p. 7-11.

Research on Mechanical Properties of High Boron Alloyed Stainless Steel Composite Plate Containing Titanium Linlin Yuan 1, a, jingtao Han2,b , jing Liu 3,c , yanlong Liu4,d 1 School of materials science and engineering; University of Science and Technology Beijing, Beijng, China 2 School of materials science and engineering; University of Science and Technology Beijing, Beijng, China 3 School of materials science and engineering; University of Science and Technology Beijing, Beijng, China 4 School of materials science and engineering; University of Science and Technology Beijing, Beijng, China a333sunny333@163.com, bhanjt@ustb.edu.cn, cliujing@mater.ustb.edu.cn, dlylong27@126.com Keywords: high boron alloyed stainless composite steel with Ti, solution treatment, mechanical property Abstract.
Martínez, Francisco Velasco.Sintering Stainless Steels with Boron Addition in Nitrogen Base Atmosphere, J.Materials Science Forum, 534-536 (2007)733-737 [3]Ge Changchun, Zhou Zhangjian, Li Yunkai, et al.A process to prepare boron carbide/Pb gradient material, Patent CN 1361307A [4] H.Greuner, M.
Advanced Materials Research, 535-537 (2012)738-741 [6]S A Loria, H S Isaacs.